Waste Heat Recovery from Fossil-Fired Power Plants by Organic Rankine Cycles

Organic Rankine Cycles for Waste Heat Recovery - Analysis and Applications Pub Date : 2019-10-09 DOI:10.5772/intechopen.89354

Qiang Liu

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引用次数: 8

Abstract

More than 60% of the world ’ s electricity is still produced from fossil-fired power plants. Recovering heat from flue gas, drained water, and exhaust steam which are discharged in power plants by organic Rankine cycles (ORCs) to generate power is an efficient approach to reduce fossil fuel consumption and greenhouse gas emissions. This chapter proposes conceptual ORC systems for heat recovery of drain from continuous blowdown systems, exhaust flue gas from boilers, and exhaust steam from turbines. The waste heat source temperatures range from 30 to 200°C. Environmentally friendly and nonflammable working fluids including R134a, R1234ze, R236ea, R245fa, R1233zd, and R123 were selected as the working fluids. The parameters of ORC systems were optimized, and the thermodynamic performance was analyzed. The suitable ORC layouts for various kinds of heat sources including drained water, flue gas, and steam were discussed with selecting the proper working fluids. The gross power output of a coal-fired power plant can be increased up to 0.4% by an ORC using the waste heat from the boiler flue gas. The ORCs using turbine exhaust steam with the cooling water as low as 5°C can generate 2 – 3% more power for a power unit.

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利用有机朗肯循环回收燃煤电厂的废热

世界上超过60%的电力仍然来自化石燃料发电厂。通过有机朗肯循环(ORCs)回收发电厂排放的烟气、排水和排汽中的热量发电是减少化石燃料消耗和温室气体排放的有效方法。本章提出了概念ORC系统的热回收从连续排污系统的排水，从锅炉排出的烟气，从涡轮机排出的蒸汽。余热源温度范围为30 ~ 200℃。工质选用R134a、R1234ze、R236ea、R245fa、R1233zd、R123等环保型不易燃工质。对ORC系统的参数进行了优化，并对其热力学性能进行了分析。讨论了排水、烟气、蒸汽等不同热源下ORC的合理布局，并选择了合适的工质。利用锅炉烟气余热的ORC可使燃煤电厂的总输出功率增加0.4%。使用涡轮排气蒸汽和冷却水低至5°C的orc可以为动力单元产生2 - 3%的功率。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Organic Rankine Cycles for Waste Heat Recovery - Analysis and Applications

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